KR101614737B1 - Method of Manufacturing Cable Connector for Camera Module Using FPCB and the Cable Connector - Google Patents

Abstract

The present invention relates to a method for manufacturing a cable connection element using an FPCB-integrated female connector, and a cable connection element using the same. Especially, the present invention relates to a method for manufacturing a cable connection element using an FPCB-integrated female connector which interconnects by using a cylindrical conductive pin while coupling a female connector for connection on a substrate of an FPCB, and interconnects a conductive wire, a conductive pin, and the substrate of the FPCB by soldering while the conductive wire extended from a cable is coupled to the substrate of the FPCB through the female connector, thereby maximizing an electric connection force of the cable and the FPCB, and maximizing a waterproofing function by additionally installing a cable tensile force gasket and a cable seal in the outside of the cable, and a cable connection element using the same.

Description

Technical Field [0001] The present invention relates to a method of manufacturing a cable connector using an FPCB integral FEMALE connector and a cable connector using the FPCB connector,

The present invention relates to a method of manufacturing a cable connector using an FPCB integrated FEMALE connector and a cable connector using the FPCB connector. In particular, a FEMALE connector for connecting to a substrate of an FPCB is coupled to each other using a cylindrical conductive pin, By connecting FPCB board with FEMALE connector, it is possible to maximize the electrical connection force between cable and FPCB by connecting lead, conductive pin and FPCB board by soldering. In addition, cable tensile force compression gasket and cable seal The present invention relates to a method of manufacturing a cable connector using an FPCB integral type connector and a cable connector using the same.

2. Description of the Related Art In recent years, it has become common to install a camera in a vehicle or the like to perform a monitoring function and a black box function. Generally, an electric signal providing device provided in a vehicle or the like, such as a camera module installed in a vehicle or the like, is generally standardized to a certain size and used. Therefore, the standard of the cable connected to the electric signal providing device It is fixed according to. However, since the size of the camera module installed in the vehicle is small, the size of the cable connected to the camera module is small and it is not easy to connect to the cable of the electric signal providing device built in a vehicle or the like.

There have been various attempts to connect a thick cable provided in a vehicle or the like directly to a connector of a small camera module. However, since it has failed many times, it has not been possible to connect a camera module with an electric signal providing device such as a vehicle by a single cable, The two wires are connected in a separate operation.

However, as shown in Figs. 1 (a) and 1 (b), in order to connect two different wires in this way, the end caps of the two cables extending from the two devices are peeled off and the two wires are crossed, twisted, There is a problem that a post-treatment operation such as wrapping with an insulating tube or the like and then performing a molding process to cover the entire connection portion must be performed.

Further, there is a problem in that noise due to the formation of a connection part by the post-processing operation is a problem. To solve this problem, there is a problem in that a shielded cable or twisted pair system have.

In order to solve this problem, Patent Registration No. 10-1276467 discloses a method of manufacturing a cable connector for a camera module using a FPCB and a cable connector for a camera module, wherein (a) a plurality of conductors are insulated from each other, (B) preparing a wire support member having the same number of holes in parallel as the wire, (c) inserting the wire into the hole of the wire support member, (d) projecting the periphery of the wire support member so that the wire support member having the wire inserted therein is watertightly sealed to the cable, and (e) And connecting one end of a flexible printed circuit board (FPCB) to be connected, wherein the cable is insulated from a plurality of conductors insulated from each other; A wire supporting member having the same number of holes formed in parallel as the wire, the wire being inserted through the hole and the wire end exposed to the outside; A housing formed to surround the wire support member and watertightly sealing the wire support member with the cable; And an FPCB electrically connected to the lead wire exposed to the outside of the wire support member.

However, in the above-mentioned conventional patent, there is a problem that the wire support member simply plays the role of supporting the body of the wire, and the wire and the FPCB are connected by the primary connection only by soldering, so that they are easily detached by the external impact.

That is, since the wire support member of the conventional patent is merely supporting the movement of the wire, the wire and the FPCB are simply connected by soldering, so that when the external vibration is frequently applied, There is a problem that the FPCB is easily released electrically. Moreover, since the above-mentioned parts are very small, maintenance and repair are difficult in the event of a failure.

Also, as another FPCB connecting member, a method of manufacturing a connector for connecting a device and a connector for connecting a device have been disclosed through Patent No. 10-1546318. As for the core patent, the device according to one aspect and the device A socket connector electrically connected to the device, and a socket connector electrically connected to the cable of the cable and electrically connected to the socket connector, Wherein the plug connector is formed with a plurality of contact holes for electrically coupling with the plug connector, the plug connector including: one end electrically connected to the electric wire of the cable, and the other end electrically connected to the socket connector A first intermediate connection block protruded to be inserted into and electrically connected to the contact hole of the first intermediate connection block; And a plug connector housing for sealingly fixing a connection portion between the first intermediate connection block and the cable, wherein the first intermediate connection block includes: a protrusion having a length; and a plug connector housing extending from one end of the protrusion, And a protrusion receiving portion formed with a long hollow toward the protruding portion; And an insulating fixing member formed so as to surround the outer surface of the projection receiving portion of the conductive pin so as to fix the conductive pin corresponding to the arrangement of the contact holes, And the electric wire is inserted and fixed in a forced fit manner.

However, since the above-mentioned patent has a cap-type conductive pin to insert a conductive wire in advance and to connect the conductive pin to the FPCB using the outside of the conductive pin, the conductive pin and the conductive wire are physically connected, The conductive pin and the FPCB can be easily released by the external impact because they are simply coupled by the primary connection.

In addition, in the patent No. 10-1580361, a camera module for connecting an FPCB and a cable is disclosed. A housing coupled to the lens unit; A connection terminal in which at least one coupling hole into which a cable of a cable is inserted is formed and at least one connection terminal connected to the flexible board of the lens unit is formed; And a fixed mold for fixing the connection terminal to the flexible substrate; And a dam structure for fixing the position of the fixed mold is formed in the housing.

However, the above-mentioned patent also has a problem that when the flexible board corresponding to the cable of the cable and the FPCB is coupled by only the primary contact structure and the bonding force is weakened by the frequent vibration, the electrical coupling force is easily released, There is a problem that there is a limit to the waterproofing power because it is a simple sealing structure.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and has as its object to provide a FEMB connector for connecting a FEMALE connector for connection to a substrate of a FPCB using a cylindrical conductive pin to form a primary connection structure, The FPCB substrate has a tertiary bonding structure in which a conductive pin and an FPCB substrate are bonded to each other by soldering and has a secondary bonding structure in which a lead wire and a conductive fin are bonded by soldering to each other. The present invention aims to maximize the electrical connection force between the cable and the FPCB by providing a quadratic coupling structure in which the cable and the FPCB are coupled to each other so as to maximize the waterproof function by additionally providing a cable tension force gasket and a cable seal on the outer circumference of the cable.

As means for achieving the above object,

The present invention relates to an FPCB substrate (10) having a cable connection part (10) with one side connected to an electric signal providing device, and an FPCB board (20) having one side connected through the cable connection part and the connector housing (30) (20); The cable connection part 10 includes a cable 11 connected to the electrical signal providing device, a lead 12 guided from one side of the cable, a cover 13 covering the outside of the lead to electrically insulate the lead, A cable tension force gasket (40) and a cable seal (50) on the outside of the cable; The connector housing 30 includes a connection housing 31 formed with a plurality of holes corresponding to the number of leads, and a connector housing 30 which is inserted into the inside of the connection housing 31 and which simultaneously fits the FPCB substrate, And a conductive pin connecting solder portion (33) having a second electrical coupling structure by connecting an outer side of the cylindrical conductive pin and the FPCB substrate to each other, A soldering portion 34 for connecting a lead wire having a third electrical coupling structure by connecting the lead and the conductive pin, and a FPCB substrate connecting soldering portion 35 for connecting the lead wire and the FPCB substrate and having a fourth electrical coupling structure ); A cable tension force compression gasket (40) and a cable seal (50) mounted on the outside of the cable; A housing 60 mounted around the cable tension force compression gasket 40 and the cable seal 50; An epoxy 70 for holding the inside of the housing 60; And a silicone O-ring 80 installed on the outer circumference of the housing for maximizing watertightness when coupled with other devices.
In addition, the conductive pin connecting soldering portion 33, the lead connecting soldering portion 34, and the FPCB board connecting soldering portion 35 are integrally formed.
The connector housing 30 and the FPCB substrate 20 are connected to the cylindrical conductive pin 32 at the same time as the connector housing 30 and the FPCB substrate 20 ; (2) cutting one side of the cable connection part (10) so that the cable cover (13) comes out to the outside, and peeling off the cable cover (13) so that the lead wire (12) (3) mounting a cable tensioning crimp gasket (40) and a cable seal (50) on the outer periphery of the cable (10) as a pre-work for joining the housings; (4) inserting the conductor 12 of the cable connecting portion 10 into the conductive pin 32 of the connector housing 30 so as to have a first electrical coupling structure; The FPCB substrate 20 is soldered to the outside of the cylindrical conductive pin 32 and soldered to the conductive pin 32 and the lead wire and the FPCB substrate 20, And the soldering portion 34 is formed by connecting the lead 12 and the conductive pin 32 by soldering so as to have a third electrical coupling structure and the lead 12 and the conductive pin 32 are formed to have a second electrical coupling structure, A step of connecting the FPCB substrate 20 by soldering to form a soldering portion 35 so as to have a fourth electrical coupling structure; (6) attaching the housing 60 around the cable tensile force gasket 40 and the cable seal 50; (7) treating the inside of the housing (60) with an epoxy (70) to finish the internal structure of the housing; (8) The silicone o-ring 80 is added to the outer periphery of the housing 60 to maximize watertightness when coupled with other devices.

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As described above, according to the present invention, a FEMALE connector for connection is combined with a FEMALE connector for a FPCB, and a primary connection structure is formed by mutually coupling using a cylindrical conductive pin. A lead wire extending from the cable is coupled to the FPCB substrate through a FEMALE connector, Which has a secondary bonding structure in which a conductor and a conductive pin are coupled to each other by soldering, and the conductive pin and the FPCB substrate are bonded to each other by soldering, So that the electrical connection force between the cable and the FPCB is maximized. In addition, a cable tensile force compression gasket and a cable seal are additionally provided on the outer periphery of the cable to maximize the waterproof function.

1 is a connection structure diagram of a conventional camera module and a cable.
2 is a schematic view of a cable connection part of the present invention.
3 is a state in which a cable tension force compression gasket is installed in a cable connection portion of the present invention.
4 is a state in which a cable tension force compression gasket and a cable seal are installed in a cable connection portion of the present invention.
5 is a view showing a connector housing connected to the FPCB substrate of the present invention.
6 is a view showing a connector housing connected to an FPCB board of the present invention, where an FPCB board and a connector housing are coupled by a conductive pin.
Fig. 7 is a view showing that the cable connection portion of the present invention is forcibly bonded to an FPCB substrate by a lead wire. Fig.
8 is a view showing a FPCB substrate of the present invention bonded to a conductive wire and a conductive pin by soldering;
9 is an assembled cross-sectional view of an FPCB substrate, a conductive line, a conductive pin, a connector housing, and a soldering portion of the present invention.
9A is an enlarged view of the main part of Fig.
FIG. 9B is a cross-sectional view of the main portion of FIG. 9, showing a soldering portion for connecting a conductive pin having a second electrical coupling structure by connecting an outer side of a cylindrical conductive pin and an FPCB substrate;
FIG. 9C is a cross-sectional view of the main part of FIG. 9, showing a soldering portion for connecting conductors having a third electrical coupling structure by connecting a conductor and a conductive pin. FIG.
FIG. 9D is a cross-sectional view of the main part of FIG. 9, showing a soldering portion for connecting an FPCB substrate having a fourth electrical coupling structure by connecting a lead wire and an FPCB substrate.
Fig. 9E is a cross-sectional view of the main part of Fig. 9, showing the completion of the second to fourth electrical coupling structures
10 is a view showing a state where a housing is coupled to a cable connection part of the present invention.
10A is an enlarged view of the main part of Fig.
11 is a state in which the cable connection portion of the present invention is epoxy-treated.
12 is a state in which a silicone O-ring is mounted on the outer periphery of the housing of the present invention.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. Therefore, the definition should be based on the contents throughout the present invention.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. The configuration is omitted as much as possible, and a functional configuration that should be additionally provided for the present invention is mainly described.

Those skilled in the art will readily understand the functions of the components that have been used in the prior art among the functional configurations that are not shown in the following description, The relationship between the elements and the components added for the present invention will also be clearly understood.

In order to efficiently explain the essential technical features of the present invention, the following embodiments properly modify the terms so that those skilled in the art can clearly understand the present invention, It is by no means limited.

As a result, the technical idea of the present invention is determined by the claims, and the following embodiments are merely illustrative of the technical idea of the present invention in order to efficiently explain the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs. .

2 is a schematic view of a cable connection part of the present invention.

3 is a state in which a cable tension force compression gasket is installed in a cable connection portion of the present invention.

4 is a state in which a cable tension force compression gasket and a cable seal are installed in a cable connection portion of the present invention.

5 is a view showing a connector housing connected to the FPCB substrate of the present invention.

6 is a view showing a connector housing connected to an FPCB board of the present invention, where an FPCB board and a connector housing are coupled by a conductive pin.

Fig. 7 is a view showing that the cable connection portion of the present invention is forcibly bonded to an FPCB substrate by a lead wire. Fig.

8 is a view showing a FPCB substrate of the present invention bonded to a conductive wire and a conductive pin by soldering;

9 is an assembled cross-sectional view of an FPCB substrate, a conductive line, a conductive pin, a connector housing, and a soldering portion of the present invention.

9A is an enlarged view of the main part of Fig.

FIG. 9B is a cross-sectional view of the main portion of FIG. 9, showing a soldering portion for connecting a conductive pin having a second electrical coupling structure by connecting an outer side of a cylindrical conductive pin and an FPCB substrate;

FIG. 9C is a cross-sectional view of the main part of FIG. 9, showing a soldering portion for connecting conductors having a third electrical coupling structure by connecting a conductor and a conductive pin. FIG.

FIG. 9D is a cross-sectional view of the main part of FIG. 9, showing a soldering portion for connecting an FPCB substrate having a fourth electrical coupling structure by connecting a lead wire and an FPCB substrate.

Fig. 9E is a cross-sectional view of the main part of Fig. 9, showing the completion of the second to fourth electrical coupling structures

10 is a view showing a state where a housing is coupled to a cable connection part of the present invention.

10A is an enlarged view of the main part of Fig.

11 is a state in which the cable connection portion of the present invention is epoxy-treated.

12 is a state in which a silicone O-ring is mounted on the outer periphery of the housing of the present invention,

First, components of the present invention include a cable connecting portion 10, an FPCB substrate 20 formed at the end of the FPCB body 20a, and a connector housing (FEMALE connector) 30.

The cable connection part 10 includes a cable 11 connected to the electrical signal providing device, a lead 12 guided from one side of the cable, a cover 13 covering the outside of the lead to electrically insulate the lead, And a cable tension force gasket (40) and a cable seal (50) on the outside of the cable.

The connector housing 30 includes a connection housing 31 having a plurality of holes corresponding to the number of leads and a connector housing 30 which is inserted into the inside of the connection housing 31 and which simultaneously engages the FPCB board 20, A cylindrical conductive pin (32) electrically connected to the lead via a hole and having a first electrical coupling structure, and a conductive pin connecting solder portion having a second electrical coupling structure by connecting the outside of the cylindrical conductive pin and the FPCB substrate 33), a lead wire connecting soldering portion (34) having a third electrical coupling structure by connecting the lead wire and the conductive pin, and a soldering portion (34) for connecting the lead wire and the FPCB substrate (35).

Hereinafter, the constituent elements of the present invention will be described in detail.

The cable connection part 10 of the present invention includes a cable, a wire and a cover as main components. The cable 11 is connected to the electric signal providing device on one side thereof to relay an external electric signal. Specifically, the wire 12 installed inside the cable 11 is electrically connected to the electric signal providing device and serves as a bridge for exchanging signals. The outer side of the lead wire 12 is surrounded by the cover 13 and is electrically insulated to physically protect the lead wire from external dust or the like.

The cylindrical conductive pin 32 is for connecting the FPCB substrate 20 and connects the lead wire 12 of the cable 11 to the FPCB substrate 20 so that the cable 11 and the FPCB substrate 20 are electrically connected So that the camera module connected to the other end of the FPCB board 20 and the electric signal supply device connected to the cable connection part 10 are electrically connected to each other to be able to exchange signals.

That is, in the present invention, since the cable 12 is fitted and connected to the cylindrical conductive pin 32, the FPCB substrate 20 is primarily electrically connected through the conductive pin 32 .

The conductive wire 12 is connected to the FPCB substrate 20 by various methods and the wire 12 is inserted into the cylindrical conductive pin 32 so as to be physically connected to the conductive pin 32, The solder 33 is formed by connecting the outer end of the cylindrical conductive pin 32 and the FPCB substrate 20 by soldering so that the conductive pin 32 and the FPCB substrate 20 are electrically connected to each other So as to have a second electrical coupling structure (FIG. 9B).

The end of the conductive wire 12 and the end of the conductive pin 32 are connected by soldering to form a soldering portion 34 so as to have a third electrical coupling structure (FIG. 9C) And the FPCB substrate 20 are connected by soldering to form a soldering portion 35 to have a fourth electrical coupling structure (FIG. 9D).

The conductor 12 and the FPCB substrate 20 are coupled to each other by the four coupling methods by using the cylindrical conductive pin 32 as described above so that the conductor 12 and the FPCB substrate 20 are electrically coupled (Fig. 9E).

Even if the first electrical coupling structure is lost, the electrical coupling relationship between the conductor 12 and the FPCB substrate 20 can be maintained because of the existence of the second to fourth coupling structures.

That is, even if the first coupling structure in which the cylindrical conductive pin 32 and the FPCB substrate 20 are physically coupled is lost, the second to fourth coupling structures connected by the soldering portions 33, 34, The electrical connection between the lead wire 12 and the FPCB substrate 20 is maintained.

Even if the second coupling structure in which the outer end of the cylindrical conductive pin 32 and the FPCB substrate 20 are connected by the soldering portion 33 is lost, the first coupling structure, the third coupling structure and the fourth coupling structure exist The electrical connection between the lead 12 and the FPCB substrate 20 is maintained and even if the third electrical coupling structure connected to the end of the lead 12 and the end of the conductive pin 32 by soldering is lost, And the second and fourth connection structures are present so that the electrical connection between the conductive wire 12 and the FPCB substrate 20 is maintained and the electrical connection between the conductive wire 12 and the FPCB substrate 20 by the fourth electrical coupling structure The first to third bonding structures exist, so that the electrical connection between the conductive wire 12 and the FPCB substrate 20 is maintained.

Therefore, even if any one of the plurality of coupling structures is lost, the electrical connection between the conductive wire 12 and the FPCB substrate 20 is maintained by the remaining coupling relationship, so that the lifetime can be prolonged.

The cable 11 of the cable connecting portion 10 is electrically connected to the lead 12 and the cylindrical conductive pin 32 and the FPCB substrate 20 by the connection as in the present invention so that the cable connecting portion 10 And the camera module connected to the other end of the FPCB substrate 20 are electrically connected to each other to enable mutual signal exchange.

If necessary, the second to fourth coupling structures may be integrally formed.

As a result, according to the present invention, the conductor 12 of the cable 10 and the FPCB substrate 20 are coupled with each other by four coupling structures so that strong coupling is possible, and even if vibration or impact is applied, .

In addition, the present invention is characterized in that after the FPCB substrate and the lead wires are connected, the solder 30 is completed to complete the electrical coupling, and as the outpouring operation for coupling the housing, the cable tension force- And a housing 60 is mounted around the periphery of the cable tension force gasket 40 and the cable seal 50. The inside of the housing 60 is treated with an epoxy 70 to finish. In addition, a silicone O-ring 80 is added to the outer circumference of the housing 60 to maximize watertightness when coupled with other devices.

Further, since the lead wire is deeply inserted into the inside of the housing 31 for direct connection, the length l of the housing is minimized.

That is, as shown in FIG. 10A, in the present invention, all of the lead wires drawn when the lead wire is drawn out from the cable are inserted into the inside of the connecting housing 31 so that only the portion covered by the cover is exposed, The connector housing connecting portion 60a constituting the front end of the housing 60 can be made shorter in length. Therefore, the injection length inserted into the module can be shortened.

In other words, if the wire is configured to be exposed to the outside, the length of the housing must be long because the wire is wrapped to the outside of the wire. However, as shown in FIG. 10A of the present invention, The length of the connector housing connection portion 60a can be determined and can be shortened so as to cover only the outer side of the cover. Thus, the overall length of the housing 60 can be shortened.

Hereinafter, the production method of the present invention will be described.

In the manufacturing sequence of the present invention,

(1) A cable connector 10, an FPCB board 20 and a connector housing 30 are provided, and the connector housing 30 and the FPCB board 20 are coupled to each other with a cylindrical conductive pin 32. That is, a connector housing 30 is formed in a rectangular parallelepiped shape, holes corresponding to the number of conductors are formed in the connector housing 30, a cylindrical conductive pin is separately provided, (30), and at the same time passes through the connection hole of the FPCB substrate and is forcedly engaged.

(2) One side of the cable connecting portion 10 is cut so that the cable covering 13 is brought out to the outside, and the cable covering 13 is peeled off so that the lead wire 12 comes out to the outside. That is, one side of the cable connecting portion 20 is cut, and the cable covering 11 surrounding each of the conducting wires 12 is cut into a shearing cut, and then the cable covering 13 is peeled off, Let it come out from the state without fail.

(3) A cable tension force compression gasket (40) and a cable seal (50) are mounted on the outer circumference of the cable (10) as a preliminary work for housing coupling. That is, when the housing 60 is directly mounted on the outer side of the cable 11, the housing 60 is slipped so that the cable tension force bonding gasket 40 and the cable seal 50 are mounted.

(4) The conductor 12 of the cable connecting portion 10 is forcibly fitted into the conductive pin 32 of the connector housing 30 to have a first electrical coupling structure. That is, the lead wire is inserted into the conductive pin of the connector housing 30, and the lead wire is forcedly inserted and electrically connected to the lead wire through the inner circumference of the conductive pin to have the first electrical coupling structure.

The FPCB substrate 20 is soldered to the outside of the cylindrical conductive pin 32 and soldered to the conductive pin 32 and the lead wire and the FPCB substrate 20, And the soldering portion 34 is formed by connecting the lead 12 and the conductive pin 32 by soldering so as to have a third electrical coupling structure and the lead 12 and the conductive pin 32 are formed to have a second electrical coupling structure, The FPCB substrate 20 is connected by soldering to form a soldering portion 35, thereby having a fourth electrical coupling structure.

(6) Cable Tensile Attach the housing (60) around the compression gasket (40) and the cable seal (50). That is, the cylindrical housing 60 is mounted around the cable tensile force gasket 40 and the cable seal 50 and is firmly fixed.

(7) The inside of the housing 60 is treated with epoxy 70 to finish the internal structure of the housing. That is, by processing the inside of the housing with the epoxy 70, the space inside the housing 60 is filled up, thereby preventing the housing 60 from being easily damaged by an external impact.

(8) A silicone o-ring (80) is added to the outer circumference of the housing (60) to maximize watertightness when coupled with other devices. That is, when the housing 60 is coupled to the other battery device, the silicone o-ring 80 functions as a watertight seal, thereby essentially preventing external contaminants or dust from penetrating through the housing.

10: Cable connection
11: Cable
12: Lead wire
13: Cloth
20: FPCB substrate
30: Connector housing
40: Cable tension force compression gasket
50: Cable seal
60: Housing
70: Epoxy
80: Silicone O-ring

Claims (5)

An FPCB substrate 20 having one side connected to the electric signal providing device and the other side connected to the camera module through the FPCB body 20a through the cable connection part and the connector housing 30, ≪ / RTI > The cable connection part 10 includes a cable 11 connected to the electrical signal providing device, a lead 12 guided from one side of the cable, a cover 13 covering the outside of the lead to electrically insulate the lead, A cable tension force gasket (40) and a cable seal (50) on the outside of the cable; The connector housing 30 includes a connection housing 31 formed with a plurality of holes corresponding to the number of leads, and a connector housing 30 which is inserted into the inside of the connection housing 31 and which simultaneously fits the FPCB substrate, And a conductive pin connecting solder portion (33) having a second electrical coupling structure by connecting an outer side of the cylindrical conductive pin and the FPCB substrate to each other, A soldering portion 34 for connecting a lead wire having a third electrical coupling structure by connecting the lead and the conductive pin, and a FPCB substrate connecting soldering portion 35 for connecting the lead wire and the FPCB substrate and having a fourth electrical coupling structure );
A cable tension force compression gasket (40) and a cable seal (50) mounted on the outside of the cable;
A housing 60 mounted around the cable tension force compression gasket 40 and the cable seal 50;
An epoxy 70 for holding the inside of the housing 60;
And a silicone O-ring (80) installed on the outer circumference of the housing to maximize watertightness when coupled with other devices. delete delete The method according to claim 1,
Wherein the conductive pin connecting soldering portion (33), the lead connecting soldering portion (34), and the FPCB board connecting soldering portion (35) are integrally formed. (1) simultaneously connecting the connector housing 30 and the FPCB substrate 20 to the cylindrical conductive pin 32 with the cable connection portion 10, the FPCB substrate 20, and the connector housing 30; ;
(2) cutting one side of the cable connection part (10) so that the cable cover (13) comes out to the outside, and peeling off the cable cover (13) so that the lead wire (12)
(3) mounting a cable tensioning crimp gasket (40) and a cable seal (50) on the outer periphery of the cable (10) as a pre-work for joining the housings;
(4) inserting the conductor 12 of the cable connecting portion 10 into the conductive pin 32 of the connector housing 30 so as to have a first electrical coupling structure;
The FPCB substrate 20 is soldered to the outside of the cylindrical conductive pin 32 and soldered to the conductive pin 32 and the lead wire and the FPCB substrate 20, And the soldering portion 34 is formed by connecting the lead 12 and the conductive pin 32 by soldering so as to have a third electrical coupling structure and the lead 12 and the conductive pin 32 are formed to have a second electrical coupling structure, A step of connecting the FPCB substrate 20 by soldering to form a soldering portion 35 so as to have a fourth electrical coupling structure;
(6) attaching the housing 60 around the cable tensile force gasket 40 and the cable seal 50;
(7) treating the inside of the housing (60) with an epoxy (70) to finish the internal structure of the housing;
(8) adding a silicone O-ring (80) to the outer periphery of the housing (60) to maximize watertightness when engaged with other devices.

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